test_that("we can print sfc objects", { pt1 = st_point(1:2) pt2 = st_point(3:4) s1 = st_sf(a = c("x", "y"), geom = st_sfc(pt1, pt2)) expect_output(print(s1), "Simple feature collection") expect_output(print(st_sfc()), "Geometry set for 0 features") expect_length(st_sfc(), 0) }) test_that("st_is_longlat works", { pt1 = st_point(1:2) pt2 = st_point(3:4) s1 = st_sf(a = c("x", "y"), geom = st_sfc(pt1, pt2)) expect_equal(st_is_longlat(s1), NA) s2 = s1 st_crs(s2) = 3857 expect_false(st_is_longlat(s2)) st_crs(s1) = 4326 expect_true(st_is_longlat(s1)) }) test_that("st_crs returns NA for sfg objects", { pt1 = st_point(1:2) expect_true(is.na(st_crs(pt1))) }) test_that("st_as_binary handles non-native big endian", { gc = st_geometrycollection() r = st_as_binary(gc) r[1] = if (r[1] == 1) { as.raw(0) } else { as.raw(1) } r[2:5] = rev(r[2:5]) # swap bytes expect_identical(gc, st_as_sfc(structure(list(r), class = "WKB"), pureR = TRUE)[[1]]) expect_identical(gc, st_as_sfc(structure(list(r), class = "WKB"), pureR = TRUE, EWKB = TRUE)[[1]]) }) test_that("st_crs<- gives warnings on changing crs", { x = st_sfc(list(st_point(0:1), st_point(0:1))) y = x expect_silent(st_crs(y) <- 4326) expect_silent(st_crs(y) <- 4326) expect_warning(st_crs(y) <- 3857) x = st_sfc(list(st_point(0:1), st_point(0:1)), crs = 4326) #expect_silent(st_sfc(x, crs = "+proj=longlat +datum=WGS84 +no_defs")) #expect_silent(st_sfc(x, crs = "+proj=longlat +datum=WGS84")) #-->> breaks build on CRAN flavor fedora-gcc # but do when it changes: expect_warning(st_sfc(x, crs = "+proj=merc +a=6378137 +b=6378137 +lat_ts=0.0 +lon_0=0.0 +x_0=0.0 +y_0=0 +k=1.0 +units=m +nadgrids=@null +wktext +no_defs")) }) test_that("st_precision()", { x <- st_sfc(st_point(c(pi, pi)), precision = 1e-4, crs = 3857) # units m expect_equal(st_precision(x), 1e-4) expect_error(st_set_precision(x, NULL)) expect_error(st_set_precision(x, NA), "numeric") expect_error(st_set_precision(x, list()), "length") expect_error(st_set_precision(x, list(x = 1)), "numeric") expect_error(st_set_precision(x, 1:4), "length") expect_error(st_set_precision(x, NA_real_), "numeric") st_precision(x) <- 1e-2 expect_identical(st_set_precision(x, 1e-2), x) expect_identical(x, st_set_precision(x, units::set_units(100, m))) expect_error(st_set_precision(x, units::set_units(100, kg))) x <- st_transform(x, 4326) expect_silent(st_set_precision(x, units::set_units(0.001, rad))) expect_silent(st_set_precision(x, units::set_units(0.1, degree))) expect_error(st_set_precision(x, units::set_units(0.001, degree_C))) }) test_that("st_precision() works for sf", { x <- st_as_sf(data.frame("a" = 1), st_sfc(st_point(c(pi, pi)), precision = 1e-4)) expect_equal(st_precision(x), 1e-4) expect_error(st_set_precision(x, NULL)) expect_error(st_set_precision(x, NA), "numeric") expect_error(st_set_precision(x, list()), "length") expect_error(st_set_precision(x, list(x = 1)), "numeric") expect_error(st_set_precision(x, 1:4), "length") expect_error(st_set_precision(x, NA_real_), "numeric") st_precision(x) <- 1e-2 expect_identical(st_set_precision(x, 1e-2), x) }) test_that("st_as_sfc breaks on wrong input", { expect_error(st_as_sfc("foo")) }) test_that("st_coordinates works", { x <- st_sfc(st_point(c(pi, pi)), precision = 1e-4) expect_true(is.matrix(st_coordinates(st_sf(a = 1, geom = x)))) expect_true(is.matrix(st_coordinates(x))) expect_true(is.matrix(st_coordinates(x[[1]]))) nc <- st_read(system.file("shape/nc.shp", package="sf"), quiet = TRUE) expect_true(is.matrix(st_coordinates(nc))) # expect_true(is.matrix(st_coordinates(st_geometrycollection(list(st_point))))) }) test_that("as.data.frame.sfc works", { sfc = st_sfc(st_point(0:1), st_point(3:4)) expect_silent(as.data.frame(sfc)) }) test_that("rep.sfc works", { expect_equal( st_sfc(st_point(0:1), st_point(0:1), crs = 4326), rep(st_sfc(st_point(0:1), crs=4326), 2)) }) test_that("c.sfc n_empty returns sum of st_is_empty(sfg)", { pt1 <- st_point(c(NA_real_, NA_real_)) pt2 <- st_point(0:1) expect_equal(attr(c(st_sfc(pt1), st_sfc(pt1)), "n_empty"), 2L) expect_equal(attr(c(st_sfc(pt1), st_sfc(pt2)), "n_empty"), 1L) }) test_that("st_is_longlat warns on invalid bounding box", { expect_warning(st_is_longlat(st_sfc(st_point(c(0,-95)), crs = 4326))) })